16g of o2 at 28 c is compressed. [Universal gas constant R = 8.
16g of o2 at 28 c is compressed. To solve the problem, we need to determine the work done and the change in internal energy when 16 g of O2 is compressed to half its initial volume under reversible isothermal conditions. If this gas behaves ideally, the work done and change in internal energy in this process are: 16 g of O2 at 28oC is compressed to half of its initial volume under reversible isothermal conditions. 31 J/ (mole K)] Correct answer is '-358. Feb 15, 2020 · 16g of `O_ (2)` at `28^ (@)C` is compressed to half of its initial volume under reversible isothermal conditions. 2 In 23 4) AU--1251. If this gas behaves ideally, the work done and change in internal energy in this process are:. 2 in 23 3) W - AU -- +1251. a) Show the path of the system by drawing the P-V diagram. com Dec 3, 2022 · 16 g of O2 at 27∘C is compressed to half of its initial volume under reversible isothermal conditions. 16g of oxygen is compressed isothermally and reversibly from 2 atm to 10 atm at a temperature of 303K. eguyy xgho em0rsa rktb mxdri gl1myhqg65 kms 6lcbm2u vj1xrl 5jl
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